Enhancing Building Information Modeling Competency among Civil Engineering and Management Students with Team-Based Learning
Publication: Journal of Professional Issues in Engineering Education and Practice
Volume 144, Issue 2
Abstract
In order to enhance students’ individual and team competency in building information modeling (BIM) project execution, this research adopts the team-based learning (TBL) pedagogy and aligns student learning outcomes in BIM with the hierarchy defined by Bloom’s taxonomy of educational objectives into a Civil Engineering and Management (CEM) capstone project under the framework of the Accreditation Board for Engineering and Technology (ABET) standards. By designing a series of BIM learning modules in accordance with the different phases of a typical project lifecycle, including design, tendering and bidding, construction, closeout, and handover, this research investigates and evaluates how TBL may help students develop essential BIM knowledge, skills, and abilities (KSAs) and achieve a higher order of learning through role play in the contexts of a real BIM project. The four learning modules address both individual and team competency with core CEM program learning outcomes and are delivered through the TBL iterative process. The assessment of student learning and their achieved BIM competency through the capstone project are conducted with both direct and indirect measures using carefully designed grading rubrics and a student feedback survey. The research findings suggest that the combination of phased BIM learning modules and the TBL pedagogy may stimulate students’ enthusiasm and foster individual and team performance at a higher level of competency in BIM project execution. The use of a real BIM project and the role play conducted by students in the TBL also enhance students’ career preparedness by bridging the gap between BIM education in CEM programs and industry expectation on BIM competency of college graduates. This research contributes to the body of knowledge by providing empirical evidence on the efficacy of the TBL pedagogy in college BIM education and may become a valuable reference as more CEM programs seek to integrate collaborative interdisciplinary team experiences in BIM education to cultivate a more competent BIM workforce.
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Acknowledgments
This research is supported by the National Natural Science Foundation of China (No. 71301013); Humanity and Social Science Program Foundation of the Ministry of Education of China (Nos. 13YJA790150 and 17YJA790091); Shaanxi Nature Science Fund (No. 2014JM2-7140); Shaanxi Social Science Fund (Nos. 2017Z028, 2016ZB017, 2016Z047, and 2014HQ10); Xi’an Social Science Fund (No. 17J169); Xi’an Science Technology Bureau Fund (No. CXY1512[2]); Xi’an Construction Science and Technology Planning Projects (No. SJW2017-05); Shaanxi Province Higher Education Teaching Reform Project (17BZ017); Special Fund for Graduate Student Education Reform of Central College, Chang’an University (Nos. jgy16062, 310623176201, 310623176702, 310628176702, and 310628161406); Fundamental Research for Education Reform of Central College, Chang’an University (Nos. 310623172904, 310623171003, and 310623171633); and Fundamental Research for Funds for the Central Universities (Humanities and Social Sciences), Chang’an University (Nos. 310828160661 and 310823170215).
References
Abdirad, H., and Dossick, C. S. (2016). “BIM curriculum design in architecture, engineering, and construction education: A systematic review.” J. Inf. Technol. Constr., 21, 250–271.
Ahn, Y. H., Annie, R. P., and Kwon, H. (2012). “Key competencies for U.S. construction graduates: Industry perspective.” J. Prof. Issues Eng. Educ. Pract., 123–130.
Alpay, E., and Gulati, S. (2010). “Student-led podcasting for engineering education.” Eur. J. Eng. Educ., 35(4), 415–427.
Anderson, D., and Mourgues, C. (2014). “Industry participation in construction capstone courses: A company’s experience.” Pract. Period. Struct. Des. Constr., 73–76.
Apolloni, B., Howlett, R. J., and Jain, L. (2007). “Knowledge-based intelligent information and engineering systems.” 11th Int. Conf., KES 2007, XVII Italian Workshop on Neural Networks, Vietri sul Mare, Italy, Springer, Berlin, 882.
Arain, F. M. (2010). “Identifying competencies for baccalaureate level construction education: Enhancing employability of young professionals in the construction industry.” Proc., Construction Research Congress 2010: Innovation for Reshaping Construction Practice, ASCE, Reston, VA, 194–204.
Autodesk Revit [Computer software]. Autodesk, Inc., San Rafael, CA.
Azhar, S., Khalfan, M., and Maqsood, T. (2012). “Building information modeling (BIM): Now and beyond.” Constr. Econ. Build., 12(4), 15–28.
Azmy, N. (2012). “The role of team effectiveness in construction project teams and project performance.” Ph.D. thesis, Iowa State Univ., Ames, IA.
Becerik-Gerber, B., Gerber, D. J., and Ku, K. (2011). “The pace of technological innovation in architecture, engineering, and construction education: Integrating recent trends into the curricula.” J. Inf. Technol. Constr., 16, 411–432.
Becerik-Gerber, B., Ku, K. H., and Jazizadeh, F. (2012). “BIM-enabled virtual and collaborative construction engineering and management.” J. Prof. Issues Eng. Educ. Pract., 234–245.
BIMForum. (2016). “Level of development specifications 2016 part I.” ⟨http://bimforum.org/lod/⟩ (Apr. 23, 2017).
Chegu Badrinath, A., Chang, Y. T., and Hsieh, S. H. (2016). “A review of tertiary BIM education for advanced engineering communication with visualization.” Visual. Eng., 4(1), 9.
Chinowsky, P. S., Brown, H., Szajnman, A., and Realph, A. (2006). “Developing knowledge landscapes through project-based learning.” J. Prof. Issues Eng. Educ. Pract., 118–124.
Dodge Data and Analytics. (2015). “The business value of BIM in China.” SmartMarket Rep., S. A. Jones, H. M. Bernstein, M. A. Russo, D. Laquidara-Carr, and W. Taylor, eds., Bedford, MA.
Elsaiah, S., and Jansson, P. M. (2016). “An effective design course to inspire active learning in undergraduate education.” Frontiers in Education Conf. (FIE), IEEE, New York, 1–6.
Glodon BIM5D [Computer software]. Glodon Software, Beijing.
Gomez, E. A., Wu, D., and Passerini, K. (2010). “Computer-supported team-based learning: The impact of motivation, enjoyment and team contributions on learning outcomes.” Comput. Educ., 55(1), 378–390.
Guerra, A., and Holgaard, J. E. (2016). “Enhancing critical thinking in a PBL environment.” Int. J. Eng. Educ., 32(1), 424–437.
Katzenbach, J. R., and Smith, D. K. (1993). The discipline of teams, Harvard Business School Publishing Corporation, Boston.
Krathwohl, D. R. (2002). “A revision of Bloom’s taxonomy: An overview.” Theory Pract., 41(4), 212–218.
Ku, K., and Taiebat, M. (2011). “BIM experiences and expectations: The constructors’ perspective.” Int. J. Constr. Educ. Res., 7(3), 175–197.
Kubiatko, M., and Vaculová, I. (2011). “Project-based learning: Characteristic and the experiences with application in the science subjects.” Energy Educ. Sci. Technol. Part B, 3(1), 65–74.
Liu, Y., Lou, S., Shih, R., Meng, H., and Lee, C. (2010). “A case study of online project-based learning: The beer king project.” Int. J. Technol. Teach. Learn., 6(1), 43–57.
MagiCAD [Computer software]. Progman Oy, Rauma, Finland.
McGraw-Hill Construction. (2014). “The business value of BIM for construction in major global markets: How contractors around the world are driving innovation with building information modeling.” SmartMarket Rep., H. M. Bernstein, S. A. Jones, M. A. Russo, D. Laquidara-Carr, and W. Taylor, eds., Bedford, MA.
Michaelsen, L. K., Knight, A. B., and Fink, L. D. (2002). Team-based learning: A transformative use of small groups, Praeger, New York.
Michaelsen, L. K., and Sweet, M. (2008). “The essential elements of team-based learning.” New Directions Teach. Learn., 2008(116), 7–27.
Michaelsen, L. K., and Sweet, M. (2011). “Team-based learning.” New Directions Teach. Learn., 2011(128), 41–51.
Michaelsen, L. K., Sweet, M., and Parmelee, D. X. (2008). Team-based learning: Small group learning’s next big step: New directions for teaching and learning, Wiley, Hoboken, NJ.
Michaelsen, L. K., Watson, W. E., Cragin, J. P., and Fink, L. D. (1982). “Team learning: A potential solution to the problems of large class.” Exch. Organ. Behav. Teach. J., 7(1), 13–22.
Murzi, H. G. (2014). “Team-based learning theory applied to engineering education: A systematic review of literature.” 121st ASEE Annual Conf. and Exposition, American Society for Engineering Education, Indianapolis.
NIBS (National Institute of Building Sciences). (2015). “National BIM standard: United States version 3—Transforming the building supply chain through open and interoperable information exchanges.” Washington, DC.
Parmelee, D., Michaelsen, L. K., Cook, S., and Hudes, P. D. (2012). “Team-based learning: A practical guide: AMEE guide no. 65.” Med. Teach., 34(5), e275–e287.
Rokooei, S. (2015). “Building information modeling in project management: Necessities, challenges and outcomes.” Procedia Soc. Behav. Sci., 210, 87–95.
Smith, D., and Tardif, M. (2009). Building information modeling: A strategic implementation guide for architects, engineers, constructors, and real estate asset managers, Wiley, Hoboken, NJ.
Solnosky, R., Parfitt, M. K., and Holland, R. J. (2014a). “Delivery methods for a multi-disciplinary architectural engineering capstone design course.” Archit. Eng. Des. Manage., 11(4), 305–324.
Solnosky, R., Parfitt, M. K., and Holland, R. J. (2014b). “IPD and BIM-focused capstone course based on AEC industry needs and involvement.” J. Prof. Issues Eng. Educ. Pract., A4013001.
Succar, B., Sher, W., and Williams, A. (2013). “An integrated approach to BIM competency assessment, acquisition and application.” Autom. Constr., 35, 174–189.
Terenzini, P. T., Cabrera, A. F., Colbeck, C. L., Parente, J. M., and Bjorklund, S. A. (2001). “Collaborative learning vs. lecture/discussion: Students’ reported learning gains*.” J. Eng. Educ., 90(1), 123–130.
Walters, R. C., and Sirotiak, T. (2011). “Assessing the effect of project based learning on leadership abilities and communication skills.” 47th ASC Annual Int. Conf., Associated Schools of Construction, Omaha, NE.
Wu, W., and Hyatt, B. (2016). “Experiential and project-based learning in BIM for sustainable living with tiny solar houses.” Procedia Eng., 145, 579–586.
Wu, W., and Issa, R. R. A. (2014). “BIM education and recruiting: Survey-based comparative analysis of issues, perceptions, and collaboration opportunities.” J. Prof. Issues Eng. Educ. Pract., 04013014.
Wu, W., and Issa, R. R. A. (2015). “BIM execution planning in green building projects: LEED as a use case.” J. Manage. Eng., A4014007.
Wu, W., and Luo, Y. P. (2016). “Pedagogy and assessment of student learning in BIM and sustainable design and construction.” J. Inf. Technol. Constr., 21(15), 218–232.
Zhao, D., McCoy, A. P., Bulbul, T., Fiori, C., and Nikkhoo, P. (2015). “Building collaborative construction skills through BIM-integrated learning environment.” Int. J. Constr. Educ. Res., 11(2), 97–120.
Zhao, D., Sands, K., Wang, Z., and Ye, Y. (2013). “Building information modeling-enhanced team-based learning in construction education.” Proc., 2013 12th Int. Conf. on Information Technology Based Higher Education and Training (ITHET), IEEE, New York, 1–5.
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©2018 American Society of Civil Engineers.
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Received: May 16, 2017
Accepted: Sep 1, 2017
Published online: Jan 5, 2018
Published in print: Apr 1, 2018
Discussion open until: Jun 5, 2018
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